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A spectroscopic instrument can resolve t...

A spectroscopic instrument can resolve two nearly wavelength `lambda and lambda = Delta lambda if lambda//Delta lambda` is smaller than `8000` This is used to study the spectral lines of the belmar series of hydrogen Approxmately how many lines will be resolved by the instrument?

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A spectroscopic instrument can resolve two nearly wavelength lambda and lambda + Delta lambda if lambda//Delta lambda is smaller than 8000 This is used to study the spectral lines of the balmer series of hydrogen Approximately how many lines will be resolved by the instrument?

A spectroscopic instrument can resolve two nearly wavelength lambda and lambda + Delta lambda if lambda//Delta lambda is smaller than 8000 This is used to study the spectral lines of the balmer series of hydrogen Approximately how many lines will be resolved by the instrument?

A spectroscopic instrument can resolve two nearly wavelength lambda and lambda + Delta lambda if lambda//Delta lambda is smaller than 8000 This is used to study the spectral lines of the balmer series of hydrogen Approximately how many lines will be resolved by the instrument?

A spectral line with lambda = 4938Å belongs to the - series of Hydrogen atom

The wavelength of the first line of Balmer series of hydrogen atom is lambda , the wavelength of the same line in doubly ionised lithium is

Last line of Lyman series for H- atom has wavelength lambda_(1) A,2^(nd) line of Balmer series has wavelength lambda_(2)A then

Last line of Lyman series for H- atom has wavelength lambda_(1) A,2^(nd) line of Balmer series has wavelength lambda_(2)A then